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genC.go
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genC.go
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// Copyright 2020 - 2024 The xgen Authors. All rights reserved. Use of this
// source code is governed by a BSD-style license that can be found in the
// LICENSE file.
//
// Package xgen written in pure Go providing a set of functions that allow you
// to parse XSD (XML schema files). This library needs Go version 1.10 or
// later.
package xgen
import (
"fmt"
"os"
"reflect"
"strings"
)
var cBuildInType = map[string]bool{
"bool": true,
"char": true,
"unsigned char": true,
"signed char": true,
"char[]": true, // char[] will be flat to 'char field_name[]'
"float": true,
"double": true,
"long double": true,
"int": true,
"unsigned int": true,
"short": true,
"unsigned short": true,
"long": true,
"unsigned long": true,
"void": true,
"enum": true,
}
// GenC generates C programming language source code for XML schema definition
// files.
func (gen *CodeGenerator) GenC() error {
fieldNameCount = make(map[string]int)
for _, ele := range gen.ProtoTree {
if ele == nil {
continue
}
funcName := fmt.Sprintf("C%s", reflect.TypeOf(ele).String()[6:])
callFuncByName(gen, funcName, []reflect.Value{reflect.ValueOf(ele)})
}
f, err := os.Create(gen.FileWithExtension(".h"))
if err != nil {
return err
}
defer f.Close()
source := []byte(fmt.Sprintf("%s\n%s", copyright, gen.Field))
f.Write(source)
return err
}
func innerArray(dataType string) (string, bool) {
if strings.HasSuffix(dataType, "[]") {
return strings.TrimSuffix(dataType, "[]"), true
}
return dataType, false
}
func genCFieldName(name string, unique bool) (fieldName string) {
for _, str := range strings.Split(name, ":") {
fieldName += MakeFirstUpperCase(str)
}
var tmp string
for _, str := range strings.Split(fieldName, ".") {
tmp += MakeFirstUpperCase(str)
}
fieldName = tmp
fieldName = strings.Replace(fieldName, "-", "", -1)
if unique {
fieldNameCount[fieldName]++
if count := fieldNameCount[fieldName]; count != 1 {
fieldName = fmt.Sprintf("%s%d", fieldName, count)
}
}
return
}
func genCFieldType(name string) string {
if _, ok := cBuildInType[name]; ok {
return name
}
var fieldType string
for _, str := range strings.Split(name, ".") {
fieldType += MakeFirstUpperCase(str)
}
fieldType = MakeFirstUpperCase(strings.Replace(fieldType, "-", "", -1))
if fieldType != "" {
return fieldType
}
return "void"
}
// CSimpleType generates code for simple type XML schema in C language
// syntax.
func (gen *CodeGenerator) CSimpleType(v *SimpleType) {
if v.List {
if _, ok := gen.StructAST[v.Name]; !ok {
fieldType := genCFieldType(getBasefromSimpleType(trimNSPrefix(v.Base), gen.ProtoTree))
content := fmt.Sprintf("%s %s[];\n", genCFieldType(fieldType), genCFieldName(v.Name, false))
gen.StructAST[v.Name] = content
fieldName := genCFieldName(v.Name, true)
gen.Field += fmt.Sprintf("%stypedef %s", genFieldComment(fieldName, v.Doc, "//"), gen.StructAST[v.Name])
return
}
}
if v.Union && len(v.MemberTypes) > 0 {
if _, ok := gen.StructAST[v.Name]; !ok {
content := "struct {\n"
for _, member := range toSortedPairs(v.MemberTypes) {
memberName := member.key
memberType := member.value
if memberType == "" { // fix order issue
memberType = getBasefromSimpleType(memberName, gen.ProtoTree)
}
var plural, fieldType string
var ok bool
if fieldType, ok = innerArray(genCFieldType(memberType)); ok {
plural = "[]"
}
content += fmt.Sprintf("\t%s %s%s;\n", fieldType, genCFieldName(memberName, false), plural)
}
content += "}"
gen.StructAST[v.Name] = content
fieldName := genCFieldName(v.Name, true)
gen.Field += fmt.Sprintf("%stypedef %s %s;\n", genFieldComment(fieldName, v.Doc, "//"), gen.StructAST[v.Name], fieldName)
}
return
}
if _, ok := gen.StructAST[v.Name]; !ok {
var plural, fieldType string
var ok bool
if fieldType, ok = innerArray(genCFieldType(getBasefromSimpleType(trimNSPrefix(v.Base), gen.ProtoTree))); ok {
plural = "[]"
}
gen.StructAST[v.Name] = fmt.Sprintf("%s %s%s", fieldType, genCFieldName(v.Name, false), plural)
fieldName := genCFieldName(v.Name, true)
gen.Field += fmt.Sprintf("%stypedef %s;\n", genFieldComment(fieldName, v.Doc, "//"), gen.StructAST[v.Name])
}
}
// CComplexType generates code for complex type XML schema in C language
// syntax.
func (gen *CodeGenerator) CComplexType(v *ComplexType) {
if _, ok := gen.StructAST[v.Name]; !ok {
content := "struct {\n"
for _, attrGroup := range v.AttributeGroup {
fieldType := getBasefromSimpleType(trimNSPrefix(attrGroup.Ref), gen.ProtoTree)
content += fmt.Sprintf("\t%s %s;\n", genCFieldType(fieldType), genCFieldName(attrGroup.Name, false))
}
for _, attribute := range v.Attributes {
var optional string
if attribute.Optional {
optional = `, optional`
}
var plural, fieldType string
var ok bool
if fieldType, ok = innerArray(genCFieldType(getBasefromSimpleType(trimNSPrefix(attribute.Type), gen.ProtoTree))); ok {
plural = "[]"
}
content += fmt.Sprintf("\t%s %sAttr%s; // attr%s\n", fieldType, genCFieldName(attribute.Name, false), plural, optional)
}
for _, group := range v.Groups {
var plural string
if group.Plural {
plural = "[]"
}
content += fmt.Sprintf("\t%s %s%s;\n", genCFieldType(getBasefromSimpleType(trimNSPrefix(group.Ref), gen.ProtoTree)), genCFieldName(group.Name, false), plural)
}
for _, element := range v.Elements {
var plural, fieldType string
var ok bool
if fieldType, ok = innerArray(genCFieldType(getBasefromSimpleType(trimNSPrefix(element.Type), gen.ProtoTree))); ok || element.Plural {
plural = "[]"
}
content += fmt.Sprintf("\t%s %s%s;\n", fieldType, genCFieldName(element.Name, false), plural)
}
// TODO: Implement handling of v.Base for the cases of the type being a built-in one and
// the case of inheritance/embedding
content += "}"
gen.StructAST[v.Name] = content
fieldName := genCFieldName(v.Name, true)
gen.Field += fmt.Sprintf("%stypedef %s %s;\n", genFieldComment(fieldName, v.Doc, "//"), gen.StructAST[v.Name], fieldName)
}
}
// CGroup generates code for group XML schema in C language syntax.
func (gen *CodeGenerator) CGroup(v *Group) {
if _, ok := gen.StructAST[v.Name]; !ok {
content := "struct {\n"
for _, element := range v.Elements {
var plural string
if element.Plural {
plural = "[]"
}
content += fmt.Sprintf("\t%s %s%s;\n", genCFieldType(getBasefromSimpleType(trimNSPrefix(element.Type), gen.ProtoTree)), genCFieldName(element.Name, false), plural)
}
for _, group := range v.Groups {
var plural string
if group.Plural {
plural = "[]"
}
content += fmt.Sprintf("\t%s %s%s;\n", genCFieldType(getBasefromSimpleType(trimNSPrefix(group.Ref), gen.ProtoTree)), genCFieldName(group.Name, false), plural)
}
content += "}"
gen.StructAST[v.Name] = content
fieldName := genCFieldName(v.Name, true)
gen.Field += fmt.Sprintf("%stypedef %s %s;\n", genFieldComment(fieldName, v.Doc, "//"), gen.StructAST[v.Name], fieldName)
}
}
// CAttributeGroup generates code for attribute group XML schema in C language
// syntax.
func (gen *CodeGenerator) CAttributeGroup(v *AttributeGroup) {
if _, ok := gen.StructAST[v.Name]; !ok {
content := "struct {\n"
for _, attribute := range v.Attributes {
var optional, plural, fieldType string
var ok bool
if attribute.Optional {
optional = `, optional`
}
if fieldType, ok = innerArray(genCFieldType(getBasefromSimpleType(trimNSPrefix(attribute.Type), gen.ProtoTree))); ok {
plural = "[]"
}
content += fmt.Sprintf("\t%s %sAttr%s; // attr%s\n", fieldType, genCFieldName(attribute.Name, false), plural, optional)
}
content += "}"
gen.StructAST[v.Name] = content
fieldName := genCFieldName(v.Name, true)
gen.Field += fmt.Sprintf("%stypedef %s %s;\n", genFieldComment(fieldName, v.Doc, "//"), gen.StructAST[v.Name], fieldName)
}
}
// CElement generates code for element XML schema in C language syntax.
func (gen *CodeGenerator) CElement(v *Element) {
if _, ok := gen.StructAST[v.Name]; !ok {
var plural, fieldType string
var ok bool
if fieldType, ok = innerArray(genCFieldType(getBasefromSimpleType(trimNSPrefix(v.Type), gen.ProtoTree))); ok || v.Plural {
plural = "[]"
}
gen.StructAST[v.Name] = fmt.Sprintf("%s %s%s", fieldType, genCFieldName(v.Name, false), plural)
gen.Field += fmt.Sprintf("\ntypedef %s;\n", gen.StructAST[v.Name])
}
}
// CAttribute generates code for attribute XML schema in C language syntax.
func (gen *CodeGenerator) CAttribute(v *Attribute) {
if _, ok := gen.StructAST[v.Name]; !ok {
var plural, fieldType string
var ok bool
if fieldType, ok = innerArray(genCFieldType(getBasefromSimpleType(trimNSPrefix(v.Type), gen.ProtoTree))); ok || v.Plural {
plural = "[]"
}
gen.StructAST[v.Name] = fmt.Sprintf("%s %s%s", fieldType, genCFieldName(v.Name, false), plural)
fieldName := genCFieldName(v.Name, true)
gen.Field += fmt.Sprintf("%stypedef %s;\n", genFieldComment(fieldName, v.Doc, "//"), gen.StructAST[v.Name])
}
}